Remote body condition scoring of Nile crocodiles (Crocodylus niloticus) using uncrewed aerial vehicle derived morphometrics

IF 2.1 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Frontiers in animal science Pub Date : 2023-09-18 DOI:10.3389/fanim.2023.1225396
Devon Viljoen, Edward Webb, Jan Myburgh, Christoff Truter, Albert Myburgh
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引用次数: 1

Abstract

Population surveys of crocodilians using uncrewed aerial vehicles (UAV) or drones may become accurate and cost-effective alternatives to more traditional approaches. However, there are currently no quantitative methods for deriving body condition scores of crocodilians through remote sensing. This study presents seven UAV-based morphometric measures collected from rectified aerial imagery of farmed Nile crocodiles. Two hundred and eighty-eight Nile crocodiles, from two commercial crocodile farms in South Africa were included in this study. One farm housed crocodiles which appeared to have wider abdominal girths than those on the second farm, allowing comparisons for a range of sizes and body condition states. An initial disturbance assessment was conducted, and an appropriate flight altitude selected for image acquisition of farmed Nile crocodiles. Altitudes between 40m and 60m above ground level suited the studies requirements and minimized disturbance. A UAV-based body condition index for Nile crocodiles was then developed, offering a non-invasive alternative to traditional condition scoring methods. The body condition index (BCI) was calculated for each crocodile by measuring the relationship between total length and belly width (with the equation: BCI = BW/TL*10) derived from photogrammetrically processed orthophotos in GIS. The BCI values were then normalized to form a body condition score (BCS) with the equation: BCS = (BCI/1.27)*4 + 1. The BCS ranked crocodile body conditions from 1-5, where a score of 1 identified a crocodile that was comparatively thin or emaciated, while a score of 5 identified a crocodile that was relatively fat or obese in contrast to the other crocodiles assessed. A BCS of 3 was the most frequent across all crocodiles in the study, with few animals scoring a 1 or 5. The farm housing crocodiles with narrower abdominal girths had no BCS 5 occurrences, and the farm housing crocodiles with wider abdominal girths had no BCS 1 occurrences. This UAV-based body condition score could be applied to large wild or captive populations for a fast-paced health and welfare evaluation.
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尼罗鳄(Crocodylus niloticus)的远程身体状况评分使用无人驾驶飞行器衍生形态计量学
使用无人驾驶飞行器(UAV)或无人机进行鳄鱼种群调查可能成为更传统方法的准确和经济有效的替代方案。然而,目前还没有通过遥感获得鳄鱼身体状况评分的定量方法。本研究提出了七个基于无人机的形态测量方法,这些测量方法是从养殖尼罗鳄的校正航空图像中收集的。来自南非两个商业鳄鱼养殖场的288条尼罗鳄被纳入这项研究。其中一个养殖场饲养的鳄鱼似乎比另一个养殖场的鳄鱼腹部更宽,从而可以对体型和身体状况进行比较。对养殖尼罗鳄进行了初步干扰评估,并选择了合适的飞行高度进行图像采集。地面以上40米至60米的高度符合研究要求,并将干扰降至最低。然后开发了一种基于无人机的尼罗鳄身体状况指数,为传统的身体状况评分方法提供了一种非侵入性的替代方法。利用GIS中经过摄影测量处理的正射像图,通过测量鳄鱼总长与腹宽的关系(BCI = BW/TL*10),计算出每只鳄鱼的身体状况指数(BCI)。然后将BCI值归一化形成体况评分(BCS),其公式为:BCS = (BCI/1.27)*4 + 1。BCS将鳄鱼的身体状况从1-5分进行了排名,其中1分表示鳄鱼相对较瘦或瘦弱,而5分表示鳄鱼相对较胖或肥胖,与其他鳄鱼相比。研究中所有鳄鱼的BCS得分为3分是最常见的,只有少数动物得分为1或5分。腹围较窄的养殖鳄鱼无BCS 5型发病,腹围较宽的养殖鳄鱼无BCS 1型发病。这种基于无人机的身体状况评分可以应用于大型野生或圈养种群,用于快速的健康和福利评估。
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2.30
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0.00%
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审稿时长
13 weeks
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